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市場調査レポート

中国のパラホルムアルデヒド生産および市場

Production and Market of Paraformaldehyde in China

発行 CCM 商品コード 243981
出版日 ページ情報 英文 146 Pages
納期: 即日から翌営業日
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中国のパラホルムアルデヒド生産および市場 Production and Market of Paraformaldehyde in China
出版日: 2017年05月19日 ページ情報: 英文 146 Pages
概要

当レポートでは、中国のパラホルムアルデヒド (PF) 市場について調査分析し、PFの原料、価格とその影響因子、生産技術、主なエンドユーズ部門、将来の予測などを提供しており、主なPF生産業者をまとめています。

エグゼクティブサマリー

調査手法

第1章 パラホルムアルデヒドの市場情報

  • 世界のパラホルムアルデヒド概要
  • 中国におけるパラホルムアルデヒド開発
  • パラホルムアルデヒドの特徴

第2章 中国におけるパラホルムアルデヒドの生産状況

  • 中国におけるパラホルムアルデヒドの生産業者
  • 生産状況
  • パラホルムアルデヒドの価格
  • パラホルムアルデヒド原材料の新しい力学:ホルムアルデヒド
  • 主な出来事

第3章 中国におけるパラホルムアルデヒドの輸出入分析

  • パラホルムアルデヒド貿易の全体的状況
  • パラホルムアルデヒドの輸入分析
  • パラホルムアルデヒドの輸出分析

第4章 中国におけるパラホルムアルデヒドのエンドユーズセグメント

  • 消費パターン
  • 農薬産業におけるパラホルムアルデヒドの消費状況
  • 樹脂産業におけるパラホルムアルデヒドの消費状況
  • 医薬品産業におけるパラホルムアルデヒドの消費状況
  • その他の産業におけるパラホルムアルデヒドの消費状況

第5章 中国におけるパラホルムアルデヒド産業の予測

  • 将来のパラホルムアルデヒド開発の影響因子
  • パラホルムアルデヒドの需要と供給の予測

第6章 結論

第7章 中国の生産業者の状況

  • 中国における活動中の生産業者の概説
  • 中国における休止中の生産業者の概説
  • 中国における潜在的生産業者の概説

このページに掲載されている内容は最新版と異なる場合があります。詳細はお問い合わせください。

目次

From this report, you can

  • Understand the historical and current production situation of China's paraformaldehyde (PF) industry;
  • Grasp the latest industry affairs and finding out potential PF producers in China;
  • Discover the current end use breakdown of PF in China;
  • Obtain the future tendency of China's PF industry during 2017-2021.

As the largest PF producer and consumer in the world, China has 36 PF manufacturers with a total capacity of 743,000 t/a (excluding Taiwan Province) in 2016. Both the production of and demand for PF in China increased in 2016.

Though the domestic PF capacity has kept exceeding the demand in the past few years, some companies still expand their PF capacities or build new production lines. Will the PF capacity increase or reduce in the next few years? And what activities the domestic companies involved in PF?

China is a net importer of PF, and quite a lot of PF is imported each year. However, with the technological improvement and production expansion, the import volume of PF kept decreasing from 2005 to 2009 and fluctuated irregularly from 2010 to 2013, and it also decreased in 2014 and 2015. The net import volume of PF kept decreasing since 2006. How about the detailed import and export of PF in 2016, and what is the trend in the coming few years?

Chinese PF industry is greatly influenced by the development of its downstream industries, especially the glyphosate industry. PF is only consumed in glycine route. How is the operation of China's glyphosate industry especially the one adopting glycine route in 2016?

Resin is the second largest end use segment of PF in China. Along with the increasing concern on environmental protection and healthy life, PF gradually substitutes formaldehyde to produce resins. How was the market situation of PF consumed in resin industry in 2016?

The key points of this report are listed as below:

  • Production and consumption of paraformaldehyde in China up to 2016;
  • New PF projects under construction or projects to be constructed in China, as of March 2017;
  • PF import and export analysis in 2000-2016, and that for 2016 is detailed;
  • Price movement of PF in China from 2008 to Q1 2017;
  • Production technology situation of PF in China;
  • Forecast on PF supply and demand in China, 2017-2021;
  • Introduction to the main PF producers in China in 2016.

Table of Contents

Executive summary

Methodology

1 Market information of paraformaldehyde

  • 1.1 Global overview
  • 1.2 Development in China
  • 1.3 Product properties

2 Production situation of paraformaldehyde in China

  • 2.1 Producers in China
  • 2.2 Production situation
    • 2.2.1 Capacity and output
    • 2.2.2 Geographical distribution of production
    • 2.2.3 Production characteristics
  • 2.3 Price
  • 2.4 New dynamics of raw material of paraformaldehyde - formaldehyde
    • 2.4.1 Supply of formaldehyde in China
    • 2.4.2 Price of formaldehyde in China
  • 2.5 Industrial affair of paraformaldehyde in China

3 Import & export analysis of paraformaldehyde in China

  • 3.1 Overall situation of import and export
  • 3.2 Import analysis
    • 3.2.1 Import volume
    • 3.2.2 Import origin
    • 3.2.3 Import price
  • 3.3 Export analysis
    • 3.3.1 Export

4 End use segments of paraformaldehyde in China

  • 4.1 Consumption pattern
  • 4.2 Consumption in agrochemical industry
    • 4.2.1 Consumption in glyphosate
      • 4.2.1.1 Dynamic of glyphosate development in China
      • 4.2.1.2 Routes for glyphosate production
      • 4.2.1.3 Anti-dumping issues
      • 4.2.1.4 Technology trend and its influence on paraformaldehyde utilization
    • 4.2.2 Consumption in other pesticides
  • 4.3 Consumption in resin industry
  • 4.4 Consumption in pharmaceutical industry
  • 4.5 Consumption in other industries

5 Forecast on paraformaldehyde industry in China

  • 5.1 Factors influencing future development
    • 5.1.1 Driving forces
    • 5.1.2 Barriers
  • 5.2 Forecast on supply and demand of paraformaldehyde, 2017-2021
  • 5.2.1 Demand forecast to 2021
  • 5.2.2 Supply forecast to 2021

6 Conclusion

7 Situation of Chinese producers

  • 7.1 Brief introduction to active producers
    • 7.1.1 Zhenjiang LCY General Chemical Co., Ltd.
    • 7.1.2 Xinle Yongxing Chemical Factory (General Partnership)
    • 7.1.3 Hebei Jizhou Yinhe Chemical Co., Ltd.
    • 7.1.4 Nantong Jiangtian Chemical Co., Ltd.
    • 7.1.5 Wanhua Chemical (Ningbo) Co., Ltd.
    • 7.1.6 Hebei Yuhang Chemical Co., Ltd.
    • 7.1.7 Zhejiang Ailide Chemical Co., Ltd.
    • 7.1.8 Linyi Taier Chemtech Corp
    • 7.1.9 Chengdu Weite Plastic Co., Ltd.
    • 7.1.10 Jinan Xiangrui Chemical Co., Ltd.
    • 7.1.11 Shouguang Xudong Chemical Co., Ltd.
    • 7.1.12 Anhui Denuo Chemical Co., Ltd.
    • 7.1.13 Jiangsu Sanmu Group Co., Ltd.
    • 7.1.14 Shandong Binzhou Xintianyang Chemical Co., Ltd.
    • 7.1.15 Xinle Dongyuan Jinhua Co., Ltd.
    • 7.1.16 Linyi Yongda Formaldehyde Factory
    • 7.1.17 Shandong Shuangqi Chemical Co., Ltd.
    • 7.1.18 Zouping Qixing Chemical Co., Ltd.
    • 7.1.19 Zibo Qixing Chemical Technology Co., Ltd.
    • 7.1.20 Linqu Outai Chemical Co., Ltd.
    • 7.1.21 Linyi Lanshan Jinyuan Formaldehyde Factory
    • 7.1.22 Linyi Shengyang Chemical Co., Ltd.
    • 7.1.23 Renshou Chaoguan Chemical Co., Ltd.
    • 7.1.24 Chengdu Wulian Chemical Co., Ltd.
    • 7.1.25 Hebei Xinhua Co., Ltd.
    • 7.1.26 Haiyang Chemical Factory of Bazhou Shengfang Jingtian Wood Co., Ltd.
    • 7.1.27 Taizhou Zhongrong Chemical Co., Ltd.
    • 7.1.28 Linyi Jumeng Industry & Trade Co., Ltd.
    • 7.1.29 Leshan Hongya Chemical Co., Ltd.
    • 7.1.30 Nanhe Huayang Silicon Industry Co., Ltd.
    • 7.1.31 Shandong Linsen Industry Co., Ltd.
    • 7.1.32 Inner Mongolia Jiaquan Chemical Technology Co., Ltd.
    • 7.1.33 Linyi Liheng Chemical Co., Ltd.
    • 7.1.34 Linyi Ruiyin Chemical Co., Ltd.
    • 7.1.35 Qingzhou Hengxing Chemical Co., Ltd.
    • 7.1.36 Xinjiang Dearsun Chemical Co., Ltd.
  • 7.2 Brief introduction to potential producers
    • 7.2.1 Guangxi Xintiande Energy Co., Ltd.
    • 7.2.2 Hubei Yihua Chemical Industry Co., Ltd.
    • 7.2.3 Shandong Zhengxin New Energy Co., Ltd.
    • 7.2.4 Ningxia Duoli New Material Technology Co., Ltd.
    • 7.2.5 Xinjiang Wanchang New Energy Co., Ltd.
    • 7.2.6 Dongying Fangzheng Chemical Co., Ltd.
    • 7.2.7 Qinyang Yongrun Technology Development Co., Ltd.
    • 7.2.8 Wensu Xinda Chemical Co., Ltd.
    • 7.2.9 Hebei Donghua Jiheng Chemical Co., Ltd.
    • 7.2.10 Anhui Hongyuan Chemical Technology Co., Ltd.

LIST OF TABLES

  • Table 1.1-1 PF producers beyond Mainland China, 2016
  • Table 1.2-1 Production of PF in China, 1999-2005
  • Table 1.2-2 Production of PF in China, 2006-2016
  • Table 1.3-1 Basic information of paraformaldehyde
  • Table 1.3-2 Unit consumption of PF (per tonne) through the catalytic process of production
  • Table 2.1-1 Location and technology source of PF producers in China, as of March 2017
  • Table 2.1-2 Capacity and output of major PF producers in China, 2012-2016
  • Table 2.1-3 Operating rate and output share of major PF producers in China, 2012-2016
  • Table 2.1-4 List of producers having stopped PF production in China, as of March 2017
  • Table 2.2.1-1 New projects and expansion of PF production in China, as of March 2017
  • Table 2.2.3-1 Capacity of unit equipment of major PF producers in China, 2016
  • Table 2.2.3-2 Unit consumption of raw materials to produce 1 tonne of PF (rake drying method) in China, as of 2016
  • Table 2.2.3-3 Unit consumption of raw materials to produce 1 tonne of PF (spray drying method) in China, as of 2016
  • Table 2.2.3-4 PF production methods used by producers in China, 2016
  • Table 2.3-1 Quotation of PF in China by producer, March 2017
  • Table 2.4-1 Information on formaldehyde by major PF producers in China, as of 2016
  • Table 2.4.1-1 Production, import, export and apparent consumption of formaldehyde in China, 2010-2016
  • Table 3.1-1 Export tax rate of PF in China
  • Table 3.1-2 China's imports and exports of PF, 1992-2016
  • Table 3.2.2-1 China's imports of PF, 2011-2014
  • Table 3.2.2-2 China's imports of PF, 2015
  • Table 3.2.2-3 China's imports of PF, 2016
  • Table 3.3.1-1 China's exports of PF, 2011-2016
  • Table 4.2-1 Consumption of PF in agrochemical industry by product in China, 2005-2016
  • Table 4.2.1.2-1 Comparison of three production routes of glyphosate technical in China, 2016
  • Table 4.2.1.2-2 Capacity and output of glyphosate technical in China by pathway, 2005-2016
  • Table 4.2.1.2-3 Glyphosate technical (AEA pathway) producers in China, 2016
  • Table 4.2.2-1 Capacity and output of acetochlor technical and consumption of PF in China, 2005-2016
  • Table 4.2.2-2 Capacity and output of butachlor technical and consumption of PF in China, 2005-2016
  • Table 4.2.2-3 Capacity and output of tricyclazole technical and consumption of PF in China, 2008-2016
  • Table 4.3-1 List of key PF end users in resin industry in China, 2016
  • Table 4.5-1 List of some PF end users in other industries in China, 2016
  • Table 5.2.2-1 New PF projects in China predicted to be launched in 2016-2017, as of March 2017
  • Table 7.1.1-1 Group members of Taiwan LCY, 2016
  • Table 7.1.1-2 Capacity and output of PF in Zhenjiang LCY, 2002-Q1 2017
  • Table 7.1.1-3 Quotation of 92% PF in Zhenjiang LCY, May 2007-March 2017
  • Table 7.1.2-1 Capacity and output of PF in Xinle Yongxing, 2010-Q1 2017
  • Table 7.1.2-2 Quotation of 96% PF in Xinle Yongxing, May 2010-March 2017
  • Table 7.1.3-1 Main products in Jizhou Yinhe, 2016
  • Table 7.1.3-2 Capacity and output of PF in Jizhou Yinhe, 2010-Q1 2017
  • Table 7.1.3-3 Quotation of 96% PF in Jizhou Yinhe, May 2010-March 2017
  • Table 7.1.4-1 Main products in Nantong Jiangtian, 2016
  • Table 7.1.4-2 Capacity and output of PF in Nantong Jiangtian, 2010-Q1 2017
  • Table 7.1.4-3 Quotation of 96% PF in Nantong Jiangtian, May 2010-March 2017
  • Table 7.1.5-1 Main subsidiaries of Wanhua Chemical, 2016
  • Table 7.1.5-2 Main products in Ningbo Wanhua, 2016
  • Table 7.1.5-3 Capacity and output of PF in Ningbo Wanhua, 2007-Q1 2017
  • Table 7.1.5-4 Quotation of 96% PF in Ningbo Wanhua, May 2008-March 2017
  • Table 7.1.6-1 Capacity and output of PF in Hebei Yuhang, 2010-Q1 2017
  • Table 7.1.6-2 Quotation of 96% PF in Hebei Yuhang, May 2010-March 2017
  • Table 7.1.7-1 Capacity and output of PF in Zhejiang Ailide, 2012-Q1 2017
  • Table 7.1.7-2 Quotation of 96% PF in Zhejiang Ailide, April 2012-March 2017
  • Table 7.1.8-1 Main products in Linyi Taier, 2016
  • Table 7.1.8-2 Capacity and output of PF in Linyi Taier, 2012-Q1 2017
  • Table 7.1.8-3 Quotation of 96% PF in Linyi Taier, April 2012-March 2017
  • Table 7.1.9-1 Capacity and output of PF in Chengdu Weite, 2012-Q1 2017
  • Table 7.1.9-2 Quotation of 96% PF in Chengdu Weite, May 2013-March 2017
  • Table 7.1.10-1 Capacity and output of PF in Jinan Xiangrui, 2012-Q1 2017
  • Table 7.1.10-2 Quotation of 96% PF in Jinan Xiangrui, April 2012-March 2017
  • Table 7.1.11-1 Capacity and output of PF in Shouguang Xudong, 2012-Q1 2017
  • Table 7.1.11-2 Quotation of 96% PF in Shouguang Xudong, April 2012-March 2017
  • Table 7.1.12-1 Capacity and output of PF in Anhui Denuo, 2012-Q1 2017
  • Table 7.1.12-2 Quotation of 96% PF in Anhui Denuo, April 2012-March 2017
  • Table 7.1.13-1 Capacity and output of PF in Jiangsu Sanmu, 2014-Q1 2017
  • Table 7.1.13-2 Quotation of 92% PF in Jiangsu Sanmu, April 2014-March 2017
  • Table 7.1.14-1 Capacity and output of PF in Binzhou Xintianyang, 2013-Q1 2017
  • Table 7.1.14-2 Quotation of 96% PF in Binzhou Xintianyang, Feb. 2016-March 2017
  • Table 7.1.15-1 Capacity and output of PF in Xinle Dongyuan, 2012-Q1 2017
  • Table 7.1.15-2 Quotation of 96% PF in Xinle Dongyuan, April 2012-March 2017
  • Table 7.1.16-1 Capacity and output of PF in Linyi Yongda, 2012-Q1 2017
  • Table 7.1.16-2 Quotation of 96% PF in Linyi Yongda, April 2012-March 2017
  • Table 7.1.17-1 Capacity and output of PF in Shandong Shuangqi, 2012-Q1 2017
  • Table 7.1.17-2 Quotation of 96% PF in Shandong Shuangqi, May 2010-March 2017
  • Table 7.1.18-1 Capacity and output of PF in Zouping Qixing, 2012-Q1 2017
  • Table 7.1.18-2 Quotation of 96% PF in Zouping Qixing, April 2012-March 2017
  • Table 7.1.19-1 Capacity and output of PF in Zibo Qixing, 2015-Q1 2017
  • Table 7.1.19-2 Quotation of 96% PF in Zibo Qixing, Feb. 2016-March 2017
  • Table 7.1.20-1 Capacity and output of PF in Linqu Outai, 2012-Q1 2017
  • Table 7.1.20-2 Quotation of 96% PF in Linqu Outai, April 2012-March 2017
  • Table 7.1.21-1 Capacity and output of PF in Lanshan Jinyuan, 2012-Q1 2017
  • Table 7.1.21-2 Quotation of 96% PF in Lanshan Jinyuan, April 2012-March 2017
  • Table 7.1.22-1 Capacity and output of PF in Linyi Shengyang, 2012-Q1 2017
  • Table 7.1.22-2 Quotation of 96% PF in Linyi Shengyang, April 2012-March 2017
  • Table 7.1.23-1 Capacity and output of PF in Renshou Chaoguan, 2012-Q1 2017
  • Table 7.1.23-2 Quotation of 96% PF in Renshou Chaoguan, May 2013-March 2017
  • Table 7.1.24-1 Capacity and output of PF in Chengdu Wulian, 2012-Q1 2017
  • Table 7.1.24-2 Quotation of 96% PF in Chengdu Wulian, May 2013-March 2017
  • Table 7.1.25-1 Capacity and output of PF in Hebei Xinhua, 2002-Q1 2017
  • Table 7.1.25-2 Quotation of 96% PF in Hebei Xinhua, May 2013-March 2017
  • Table 7.1.26-1 Capacity and output of PF in Shengfang Jingtian, 2012-Q1 2017
  • Table 7.1.26-2 Quotation of 96% PF in Shengfang Jingtian, April 2012-March 2017
  • Table 7.1.27-1 Capacity and output of PF in Taizhou Zhongrong, 2012-Q1 2017
  • Table 7.1.27-2 Quotation of 96% PF in Taizhou Zhongrong, April 2012-March 2017
  • Table 7.1.28-1 Capacity and output of PF in Linyi Jumeng, 2012-Q1 2017
  • Table 7.1.28-2 Quotation of 96% PF in Linyi Jumeng, April 2012-March 2017
  • Table 7.1.29-1 Capacity and output of PF in Leshan Hongya, 2015-Q1 2017
  • Table 7.1.29-2 Quotation of 96% PF in Leshan Hongya, Feb. 2016-March 2017
  • Table 7.1.30-1 Capacity and output of PF in Nanhe Huayang, 2015-Q1 2017
  • Table 7.1.30-2 Quotation of 96% PF in Nanhe Huayang, Feb. 2016-March 2017
  • Table 7.1.31-1 Capacity and output of PF in Shandong Linsen, 2015-Q1 2017
  • Table 7.1.31-2 Quotation of 96% PF in Shandong Linsen, Feb. 2016-March 2017
  • Table 7.1.32-1 Capacity and output of PF in Inner Mongolia Jiaquan, 2015-Q1 2017
  • Table 7.1.32-2 Quotation of 96% PF in Inner Mongolia Jiaquan, Feb. 2016-March 2017

LIST OF FIGURES

  • Figure 2.2.1-1 Capacity and output of PF in China, 2002-2017E
  • Figure 2.2.1-2 Operating rate of PF in China, 2002-2016
  • Figure 2.2.2-1 Geographical distribution of PF production in China by capacity, 2016
  • Figure 2.2.2-2 Geographical distribution of PF production in China by share, 2016
  • Figure 2.2.2-3 Geographical distribution of PF production in China by capacity, 2011-2016
  • Figure 2.2.3-1 Change of PF production methods in China by capacity, 2005-2016, tonne
  • Figure 2.3-1 Monthly ex-works price of 96% PF and methanol in China, 2008-2016
  • Figure 2.3-2 Average annual import price of PF in China, 2000-2016
  • Figure 2.3-3 Forecast on ex-works price of PF in China, 2017-2021
  • Figure 2.4.2-1 Monthly ex-works prices of 37% formaldehyde and 99.9% purified methanol in China, 2010-2016
  • Figure 3.1-1 Net import volume of PF in China, 1992-2016
  • Figure 3.2.1-1 Import volume of PF and its share in PF apparent consumption in China, 2000-2016
  • Figure 3.2.2-1 Share of imported PF volume in China by origin, 2005-2016
  • Figure 3.2.3-1 China's import price of PF by month, 2005-2016
  • Figure 3.2.3-2 China's imports of PF by month, 2016
  • Figure 3.3.1-1 China's export volume of PF, 2000-2016
  • Figure 3.3.1-2 China's exports of PF by month, 2016
  • Figure 4.1-1 Apparent consumption of PF and its growth rate in China, 2005-2016
  • Figure 4.1-2 Consumption pattern of PF in China by downstream industry, 2005-2016
  • Figure 4.1-3 Consumption pattern of PF in China by downstream industry, 2016
  • Figure 4.1-4 Consumption of PF in agrochemical industry in China by product, 2016
  • Figure 4.2.1-1 Consumption of PF in glyphosate production (AEA pathway) in China, 2005-2016
  • Figure 4.2.1.1-1 Capacity and output of glyphosate technical in China, 2000-2016
  • Figure 4.2.1.2-1 Production pathways of glyphosate technical in China
  • Figure 4.2.1.2-2 Output share of glyphosate technical in China by pathway, 2005-2016
  • Figure 4.3-1 Consumption of PF in resin industry in China, 2006-2016
  • Figure 4.4-1 Consumption of PF in pharmaceutical industry in China, 2006-2016
  • Figure 5.1.1-1 Export volume of PF in China, 2008-2016
  • Figure 5.1.1-2 China's GDP and its growth rate, 2005-2016
  • Figure 5.2.1-1 Forecast on demand for PF and its growth rate in China, 2017-2021
  • Figure 5.2.1-2 Forecast on PF consumption in China by product, 2017-2021
  • Figure 5.2.2-1 Forecast on PF output and its growth rate in China, 2017-2021
  • Figure 7.1.4-1 Ownership structure of Nantong Jiangtian, 2016
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